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This model is based on a simple premise, that object that moves at the speed of light doesn't induce any gravitational attraction on non comoving objects.
Quote from: CrazyScientist on 16/10/2021 19:08:20This model is based on a simple premise, that object that moves at the speed of light doesn't induce any gravitational attraction on non comoving objects.Why would you base a model on something that is not possible?? There is no point in reading anything else you've written.
By stating that gravity is gone for a source moving at c
Quote from: CrazyScientist on 16/10/2021 21:58:39By stating that gravity is gone for a source moving at cThere have been thousands of experiments that have shown that the above statement is incorrect.
Thyere were thousands of experiments, where a massive body was accelerated to c?
Quote from: CrazyScientist on 16/10/2021 23:06:54Thyere were thousands of experiments, where a massive body was accelerated to c?When a photon moves past earth it is just as if the earth were moving past the photon at c, and the effects of gravity are still felt by the photon, the path of the photon follows the curve of spacetime from the earths gravity.
Sure, photons are affected by gravitational fields, but they don't have any potential energy
Quote from: CrazyScientist on 17/10/2021 01:58:14Sure, photons are affected by gravitational fields, but they don't have any potential energyYes they do.Here's how it was measuredhttps://en.wikipedia.org/wiki/Pound%E2%80%93Rebka_experiment
CrazyScientist, learning physics is fun and rewarding, making up pseudoscience is silly and a waste of time.
For me, pseudoscience is everything, what tries to look like science, while being empirically contradicted
photons are affected by gravitational fields, but they don't have any potential energy
So, my first step was to learn WHY a massive object moving at c won't indce any acceleration due to gravity on other bodies?
it's purpose wasn't to see if photons have potential energy, but to see if their kinetic energy
Quote from: CrazyScientist on 17/10/2021 15:02:47it's purpose wasn't to see if photons have potential energy, but to see if their kinetic energy Photons do not have kinetic energy; they have electromagnetic energy.
Yet, it's purpose wasn't to see if photons have potential energy, but to see if their kinetic energy will be altered due to influence of an external graviatational field.
photons are affected by gravitational fields, but they don't have any potential energy.
which is empirically contradicted by the P R experiment.
To have potential energy, they would have to induce a force on a massive objects from distance
Which also is kinetic (induces force)
It has nothing to do with potential energy of photons. To have potential energy, they would have to induce a force on a massive objects from distance - heat or push the matter, before undergoing reflection/absorbtion